201008712 九、發明說明: 【發明所屬之技術領域】 本發明係有關於數位工具,尤其有關於一種易讀取感 .測數值的數位工具。 【先前技術】 數位工具為在一般手工具内整合入偵測機制,以藉由 感知元件來偵測得知手工具的負載,如扳手之手工具,可 在扳手内設置一應變規,據而藉由該應變規的形變所產生 ® 的電荷訊號,即可運算得知扳手所承受的扭力,其可藉由 如液晶顯示螢幕的媒體輸出元件加以輸出,以供使用者得 知,據而讓使用者可控制施力的大小,避免螺鎖元件、工 件或數位工具受力過大而崩壞。 然使用數位工具的場合為多變化的,因此若在不易照 明且環境光線昏暗場合或是狹小的空間中使用或是於視 覺角度不良場合使用時,此數位工具的液晶顯示螢幕則將 Φ 難以辨認資訊或無法觀測,使用者將無法依據數位工具所 提供的資訊而控制施力的大小,造成使用者有可能施力過 大,讓螺鎖元件、工件或數位工具因為受力過大而崩裂。 【發明内容】 爰此,本發明之主要目的在於提供一種數位工具,其 藉由有機發光二極體顯示器可設置在彎曲表面與其製程 的特性,可將一個或一個以上之有機發光二極體顯示器設 置於數位工具上之任何曲面或平面,以方便使用者在任何 角度皆能輕易的查看到有機發光二極體顯示器。 5 201008712 ' 為達上述目的,本發明為一種具有機發光二極體顯示 器之數位工具,其包含一工具、至少一感測元件、一控制 與訊號處理系統與至少一有機發光二極體顯示器,其中該 - 感測元件設於該工具上,該有機發光二極體顯示器亦設置 -於該工具之任何適當位置上,該感測元件與該有機發光二 極體顯示器並電連接於該控制與訊號處理系統,該感測元 件感測該工具的動作以量測取得一感測訊號,並傳送該感 測訊號至該控制與訊號處理系統進行處理並轉換成一相 響 對物理量,再將該相對物理量傳送至該有機發光二極體顯 示器上,將該相對物理量顯示出來,以供使用者使用。 據此,藉由該有機發光二極體顯示器可設置於彎曲表 面的特性,可讓該有機發光二極體顯示器設置於該數位工 具的任何位置,因此以讓數位工具被使用時,使用者可輕 易的讀取該相對物理量。 【實施方式】 ❹ 為使貴委員對本發明之特徵、目的及功效,有更加 深入之暸解與認同,茲列舉較佳實施例並配合圖式說明如 后: 請參閱「圖1」所示,本發明為一種具有機發光二極 體顯示器之數位工具,其包含一工具10、一感測元件20、 一控制與訊號處理系統30與一有機發光二極體顯示器 40,其中該感測元件20設置於該工具10之可應變區域並 在可應變區域形變時產生感測訊號,且該感測元件20可 201008712 ❹201008712 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to digital tools, and more particularly to a digital tool that is easy to read and sense. [Prior Art] The digital tool integrates a detection mechanism into a general hand tool to detect the load of the hand tool by sensing components, such as a wrench hand tool, and a strain gauge can be set in the wrench. By the charge signal generated by the strain gauge deformation, the torque of the wrench can be calculated, which can be outputted by a media output component such as a liquid crystal display screen for the user to know, according to The user can control the magnitude of the force applied to prevent the screw-locking component, the workpiece or the digital tool from being overstressed and collapsed. However, the use of digital tools is highly variable, so if it is used in a place where it is difficult to illuminate and the ambient light is dim or used in a small space or when it is used in a poor visual angle, the LCD screen of this digital tool will be illegible. The information may not be observable, and the user will not be able to control the force applied according to the information provided by the digital tool, causing the user to exert excessive force and causing the screw lock component, the workpiece or the digital tool to collapse due to excessive force. SUMMARY OF THE INVENTION Accordingly, it is a primary object of the present invention to provide a digital tool that can be disposed on a curved surface and a process thereof by an organic light emitting diode display, and can have one or more organic light emitting diode displays. Any surface or plane set on the digital tool, so that the user can easily view the organic light-emitting diode display at any angle. 5 201008712 ' To achieve the above object, the present invention is a digital tool having an organic light emitting diode display, comprising a tool, at least one sensing component, a control and signal processing system and at least one organic light emitting diode display, Wherein the sensing element is disposed on the tool, and the organic light emitting diode display is also disposed at any suitable position of the tool, and the sensing element is electrically connected to the organic light emitting diode display a signal processing system, the sensing component senses the action of the tool to measure a sensing signal, and transmits the sensing signal to the control and signal processing system for processing and converting into a phase response physical quantity, and then the relative A physical quantity is transmitted to the organic light emitting diode display, and the relative physical quantity is displayed for use by the user. According to this, the organic light emitting diode display can be disposed at any position of the digital tool by the characteristic that the organic light emitting diode display can be disposed on the curved surface, so that when the digital tool is used, the user can The relative physical quantity is easily read. [Embodiment] In order to give your members a better understanding and recognition of the features, purposes and effects of the present invention, the preferred embodiments are illustrated with the following description: Please refer to Figure 1 for The invention is a digital tool with a machine-emitting diode display, comprising a tool 10, a sensing component 20, a control and signal processing system 30 and an organic light-emitting diode display 40, wherein the sensing component 20 is provided A sensing signal is generated in the strainable region of the tool 10 and deformed in the strainable region, and the sensing component 20 can be 201008712 ❹
以為應變規’且可設置複數個,以量測不同位置的感測訊 號並加以統合,該控制與訊號處理系統3G設置於該工具 ίο上’該有機發光二極體顯示器4〇設置於該工具曲面η 上,且該感測元#2〇與該有機發光二極體顯示器4〇並電 連接於該控賴减處理线3G,㈣者㈣I具1〇來 累鎖工件該工具10於螺鎖工件之同時,於工具10之可 應變區域將產生形變,同時該感測元件20因工具10之可 應變區域之形變*產生感測訊號,並將該感測訊號傳送至 控制與訊號處理系統30進行處理產生一相對物理量,並 將處理完成之相對物理量傳至該有機發光二極體顯示器 40,藉此顯示出該工具1〇之螺鎖力量。 續再一併參閱「圖2」所示,該有機發光二極體顯示 可以具有複數個,其可併排設置或設置於不同位置, 該複數個有機發光二極體顯示器4()可同時或不同時各別 顯示不同之數值或符號,更可為並聯電路,可同時顯 同缝值或符號’且每個該有機發光二極體顯示器40並 :製作成具有—個或複數個之顯示螢幕,並由於該有機發 極體顯示器40具有可撓性,因而其可f曲變形以設 於數位工具上之各種曲声&矣The strain gauge is configured and a plurality of sensing signals can be set to measure and integrate the sensing signals at different positions. The control and signal processing system 3G is disposed on the tool ίο. The organic light emitting diode display 4 is disposed on the tool. On the surface η, and the sensing element #2〇 is electrically connected to the organic light emitting diode display 4〇 and to the control processing line 3G, (4) (4) I has 1〇 to lock the workpiece, the tool 10 is screwed At the same time as the workpiece, the strainable region of the tool 10 will be deformed, and the sensing component 20 generates a sensing signal due to the deformation of the strainable region of the tool 10, and transmits the sensing signal to the control and signal processing system 30. Processing is performed to generate a relative physical quantity, and the relative physical quantity of the processing is transferred to the organic light emitting diode display 40, thereby displaying the screwing force of the tool. Further, as shown in FIG. 2, the organic light emitting diode display may have a plurality of colors, which may be arranged side by side or disposed at different positions, and the plurality of organic light emitting diode displays 4 () may be simultaneously or different. When different values or symbols are displayed, it may be a parallel circuit, which can simultaneously display the same value or symbol 'and each of the organic light-emitting diode displays 40: is made to have one or a plurality of display screens, And since the organic hair body display 40 has flexibility, it can be deformed to various sounds and amps provided on the digital tool.
-搞辨航-或平面上,如該有機發光 -極體顯不器40可以設於該工具1〇的數個工具曲面U 上’同時該複數個有機發光二極體顯示器4〇並同時 接於該控额訊麟理线3G,㈣者藉該工錢來螺 鎖工件,該工具1Q於螺鎖工件之同時,於工具U之可應 201008712 變區域將產生形變’同時該感測元件2〇因工具之可應 變區域之形變而產生感測訊號,並將該感測訊號傳送至控 制與訊號處理系統30進行處理產生一相對物理量,並將 處理完成之相對物理量傳至所有之該有機發光二極體顯 -不器40,藉此顯示出該工具1〇之螺鎖力4 ,使用者可依 操作數位工具時之最佳可視角度,選取最容易讀取之有機 發光二極體顯示器4〇之顯示螢幕。 ❹ 此外本創作的數位工具其實施不限於彎曲類的數位 ,具,如··有動力之扳手、不具動力之扳手、套筒板手等 等;亦可以應用在扭轉類的數位工具,如:具動力螺絲起 子、不具動力螺絲起子、棘輪螺絲起子等等;亦可以應用 在拉伸類的數位工具,如:不具動力之拉力器、具動力之 拉力器、磅秤等等。 如上所述,本發明的有機發光二極體顯示器4〇除了 省1:可以產生向受度的光線之外,其由於可設置於寶曲 ©表面上’如工具曲面n上’因此其沒有設置空間的限制 問題,本創作的有機發光二極體顯示器4〇,可以依據需求 設置多個且每個具有一個或一個以上之螢幕,並分別設置 在不同的位置上,其可讓使用者在使用數位工具時,由多 個角度都能輕易的讀取到有機發光二極體顯示器4〇上的 顯示資§fi ’以滿足使用者的需求。 綜上所述僅為本發明的較佳實施例而已,並非用來限 定本發明之實施範圍,即凡依本發明申請專利範圍之内容 8 201008712 所為的等效變化與修飾,皆應為本發明之技術範疇 【圖式簡單說明】 圖1,係本發明結構外觀圖。 圖2,係本發明另一實施方式結構外觀圖。 【主要元件符號說明】 10 :工具 11 :工具曲面 20 :感測元件 30 :控制與訊號處理系統 40 :有機發光二極體顯示器- engaging in the navigation - or on the plane, such as the organic light - polar display 40 can be placed on the tool surface U of the tool 1 ' while the plurality of organic light emitting diode displays 4 and simultaneously connected In the control of the prefecture, the 3G, (4) by the worker to screw the workpiece, the tool 1Q at the same time as the screw locks the workpiece, the tool U can be deformed in the 201008712 variable region 'at the same time the sensing element 2〇 A sensing signal is generated due to deformation of the strainable region of the tool, and the sensing signal is transmitted to the control and signal processing system 30 for processing to generate a relative physical quantity, and the relative physical quantity of the processing is transmitted to all of the organic light emitting The polar body display device 40 displays the screw locking force 4 of the tool 1 , and the user can select the most easy to read organic light emitting diode display according to the optimal viewing angle when the digital tool is operated. The display screen. ❹ In addition, the digital tool of this creation is not limited to the digital position of the bending type, such as a power wrench, a non-powered wrench, a socket wrench, etc.; it can also be applied to a digital tool such as a torsion type, such as: Powered screwdrivers, non-powered screwdrivers, ratchet screwdrivers, etc.; can also be used in stretch-type digital tools, such as: unpowered pullers, powered pullers, scales, etc. As described above, the organic light-emitting diode display 4 of the present invention is not provided except that it can produce light of a degree of acceptance, which can be set on the surface of the song © such as the tool surface n. Space limitation problem, the OLED display of the present invention can be set up according to requirements and each has one or more screens, and is respectively disposed at different positions, which can be used by the user. In the case of a digital tool, the display §fi' on the organic light-emitting diode display can be easily read from a plurality of angles to meet the needs of the user. The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the equivalent variations and modifications of the content 8 201008712 according to the scope of the present invention should be the present invention. Technical Field [Simplified Description of the Drawings] Fig. 1 is an external view of the structure of the present invention. Fig. 2 is a perspective view showing the structure of another embodiment of the present invention. [Main component symbol description] 10 : Tool 11 : Tool surface 20 : Sense element 30 : Control and signal processing system 40 : Organic light-emitting diode display